福建林学院学报
福建林學院學報
복건림학원학보
JOURNAL OF FUJIAN COLLEGE OF FORESTRY
2009年
4期
320-325
,共6页
谢锦升%杨智杰%曾宏达%高人%陈光水%杨玉盛
謝錦升%楊智傑%曾宏達%高人%陳光水%楊玉盛
사금승%양지걸%증굉체%고인%진광수%양옥성
侵蚀地%红壤%生态恢复%土壤呼吸%土壤性质
侵蝕地%紅壤%生態恢複%土壤呼吸%土壤性質
침식지%홍양%생태회복%토양호흡%토양성질
eroded land%red soil%ecological restoration%soil respiration%soil properties
土壤性质是影响土壤呼吸的重要因素.研究了植被恢复对红壤侵蚀裸地土壤呼吸的影响,并探讨了土壤呼吸速率与土壤性质的关系.红壤侵蚀裸地土壤呼吸年平均速率仅0.43 μmol·m~(-2)·s~(-1),恢复为百喜草地、板栗园和马尾松林后土壤呼吸速率增加了3.3-6.1倍,但仍显著低于次生林的土壤呼吸速率.土壤呼吸速率与土壤表层0-20 cm内有机C、全N、有效性N、C/N均有显著的正相关关系,但除C/N外,其相关性均随取样深度增加而下降.而土壤呼吸速率与土壤全P、有效P、全K、速效K没有显著相关关系,与土壤容重和土壤表层团聚体破坏率则呈显著负相关.因此,在红壤严重侵蚀地恢复过程中,土壤性质的恢复尤其是C、N和表层土壤结构是决定土壤呼吸速率大小的重要因素.
土壤性質是影響土壤呼吸的重要因素.研究瞭植被恢複對紅壤侵蝕裸地土壤呼吸的影響,併探討瞭土壤呼吸速率與土壤性質的關繫.紅壤侵蝕裸地土壤呼吸年平均速率僅0.43 μmol·m~(-2)·s~(-1),恢複為百喜草地、闆慄園和馬尾鬆林後土壤呼吸速率增加瞭3.3-6.1倍,但仍顯著低于次生林的土壤呼吸速率.土壤呼吸速率與土壤錶層0-20 cm內有機C、全N、有效性N、C/N均有顯著的正相關關繫,但除C/N外,其相關性均隨取樣深度增加而下降.而土壤呼吸速率與土壤全P、有效P、全K、速效K沒有顯著相關關繫,與土壤容重和土壤錶層糰聚體破壞率則呈顯著負相關.因此,在紅壤嚴重侵蝕地恢複過程中,土壤性質的恢複尤其是C、N和錶層土壤結構是決定土壤呼吸速率大小的重要因素.
토양성질시영향토양호흡적중요인소.연구료식피회복대홍양침식라지토양호흡적영향,병탐토료토양호흡속솔여토양성질적관계.홍양침식라지토양호흡년평균속솔부0.43 μmol·m~(-2)·s~(-1),회복위백희초지、판률완화마미송림후토양호흡속솔증가료3.3-6.1배,단잉현저저우차생림적토양호흡속솔.토양호흡속솔여토양표층0-20 cm내유궤C、전N、유효성N、C/N균유현저적정상관관계,단제C/N외,기상관성균수취양심도증가이하강.이토양호흡속솔여토양전P、유효P、전K、속효K몰유현저상관관계,여토양용중화토양표층단취체파배솔칙정현저부상관.인차,재홍양엄중침식지회복과정중,토양성질적회복우기시C、N화표층토양결구시결정토양호흡속솔대소적중요인소.
Soil properties is an important factor affecting soil respiration. The effects of revegetating in eroded bare land on soil respiration was investigated in red soil regions of subtropical China, and the relationship between rate of soil respiration and soil properties was discussed in this study. The annual average rate of soil respiration was only 0.43 μmol·m~(-2)·s~(-1) in eroded bare land, and soil respiration average rates increased by 3.3-6.1 times in three ecosystems which were restored from bare land to Paspalum notatum Flugge grassland, Castanea mollissima plantation and Pinus massoniana plantation, but these rates were still significantly lower than that of secondary forest. There had significantly positive correlation between soil respiration rate and soil organic C, total N, hydrolyzable N and C/N in surface soil (0-20 cm), and the correlation coefficient decreased with the sampling depth of soil profile but C/N;whereas they had no significant relationship with soil respiration rate and soil total P, available P, total K and available K;on the contrary, soil respiration rate had a significant negative correlation with soil bulk density and aggregate damage rate in surface soil (0-10 cm). Therefore, soil properties especially soil C, N and soil structure are important determinants of soil respiration during the recovery of eroded red soil.